Global ETD Search

11	Význam biomarkerů u erozivní osteoartrózy rukou / The role of biomarkers in erosive osteoarthritis of the hands Lennerová, Tereza January 2016 (has links) Hand osteoarthritis (OA) is a degenerative joint disease that causes pain, functional limitation and negatively affects the patients' quality of life. The most severe subtype of this disease is erosive OA. Erosive hand OA is characterized by an abrupt onset, inflammation and is linked to worse outcomes than non-erosive hand OA. Current methods do not allow early diagnosis or to distinguish between patients with different forms at disease onset. This could be changed by the utilization of biomarkers in clinical practice. Biomarkers are molecules released into circulation that reflect biological processes. The main goal of this study was to analyze the levels of circulating biomarkers with the aim to differentiate patients from healthy subjects and patients with erosive OA from patients with non-erosive disease. Serum concentrations of seven biomarkers and the expression of plasma microRNAs were determined. Patients with hand OA showed altered cartilage metabolism, increased levels of adiponectin, decreased levels of clusterin and a dysregulated expression of several microRNAs in comparison to the healthy population. Patients with erosive OA had lower levels of clusterin and decreased expression of miR-151-3p than those with the non-erosive form of the disease. These findings suggest the potential...
12	Beta-site APP Cleavage Enzyme 1 Deficiency Enhances Reactive Astrocyte Amyloid Beta Clearance Zhou, John 26 August 2022 (has links) No description available. Biochemistry Biomedical Research Molecular Biology Neurosciences Neurobiology
13	The Regulation of Secretory Clusterin Expression after Ionizing Radiation Exposure Criswell, Tracy 19 March 2004 (has links) No description available. clusterin ionizing radiation p53 insulin-like growth factor-1 receptor mitogen activated protein kinase cascade
14	The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line Hawley, Brett 23 November 2012 (has links) The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research. Proteomics Alzheimer's Disease Apolipoprotein E Clusterin PICALM Synuclein Low-density lipoprotein receptor Platelet activating factor receptor affinity purification
15	Co-localization of the astrocytic proteins Mts1 and clusterin in CNS injury Augustsson, Mirja January 2005 (has links) <p>In the case of injury to the CNS, different proteins act to repair and protect cells in the brain and spinal cord. In the present study, we looked at dorsal root injury and hypoglossal nerve avulsion and transection. Here we studied for the first time the expression of Parkin in these types of injuries. However the antibodies against Parkin used here have not been able to detect Parkin in the injuries examined, neither with fluorescence or using DAB. The roles of Mts1, GFAP, and clusterin after injury have been investigated earlier, but their co-localization in the same cells was first shown in this study in the hypoglossal nucleus with immunohisto-chemical methods. These results may also be of value in the process of finding an effective treatment for neurodegenerative disorders such as ALS.</p> astrocytes clusterin GFAP Mts1 parkin spinal cord injury astrocytic cultures Ca-binding protein chaperon ABC Cell biology Cellbiologi
16	The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line Hawley, Brett 23 November 2012 (has links) The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research. Proteomics Alzheimer's Disease Apolipoprotein E Clusterin PICALM Synuclein Low-density lipoprotein receptor Platelet activating factor receptor affinity purification
17	Co-localization of the astrocytic proteins Mts1 and clusterin in CNS injury Augustsson, Mirja January 2005 (has links) In the case of injury to the CNS, different proteins act to repair and protect cells in the brain and spinal cord. In the present study, we looked at dorsal root injury and hypoglossal nerve avulsion and transection. Here we studied for the first time the expression of Parkin in these types of injuries. However the antibodies against Parkin used here have not been able to detect Parkin in the injuries examined, neither with fluorescence or using DAB. The roles of Mts1, GFAP, and clusterin after injury have been investigated earlier, but their co-localization in the same cells was first shown in this study in the hypoglossal nucleus with immunohisto-chemical methods. These results may also be of value in the process of finding an effective treatment for neurodegenerative disorders such as ALS. astrocytes clusterin GFAP Mts1 parkin spinal cord injury astrocytic cultures Ca-binding protein chaperon ABC Cell and Molecular Biology Cell- och molekylärbiologi
18	The Purification and Identification of Interactors to Elucidate Novel Connections in the HEK 293 Cell Line Hawley, Brett January 2012 (has links) The field of proteomics studies the structure and function of proteins in a large scale and high throughput manner. My work in the field of proteomics focuses on identifying interactions between proteins and discovering novel interactions. The identification of these interactions provides new information on metabolic and disease pathways and the working proteome of a cell. Cells are lysed and purified using antibody based affinity purification followed by digestion and identification using an HPLC coupled to a mass spectrometer. In my studies, I looked at the interaction networks of several AD related genes (Apolipoprotein E, Clusterin variant 1 and 2, Low-density lipoprotein receptor, Phosphatidylinositol binding clathrin assembly protein, Alpha-synuclein and Platelet-activating factor receptor) and an endosomal recycling pathway involved in cholesterol metabolism (Eps15 homology domain 1,2 and 4, Proprotein convertase subtilisin/kexin type 9 and Low-density lipoprotein receptor). Several novel and existing interactors were identified and these interactions were validated using co-immunopurification, which could be the basis for future research. Proteomics Alzheimer's Disease Apolipoprotein E Clusterin PICALM Synuclein Low-density lipoprotein receptor Platelet activating factor receptor affinity purification
19	Etude mécanistique des propriétés anti-tumorales du glycéryl trinitrate (gtn) : impact du monoxyde d'azote dans des voies de signalisation induites par des cytokines pro-inflammatoires et dans la régulation de marqueurs de résistance / Mechanistic study of the anti-tumor properties of glyceryl trinitrate (gtn) : impact of nitric oxide in signaling pathways induced by pro-inflammatory cytokines and in the regulation of resistance markers Bouaouiche, Sarra 20 December 2018 (has links) Une des difficultés majeures dans le traitement des cancers est l’acquisition de résistance par les cellules tumorales vis-à-vis de la mort induite par les différentes chimiothérapies. Au sein du laboratoire, nous nous intéressons aux propriétés anti-tumorales d’un donneur de monoxyde d’azote (NO), le Glycéryl TriNitrate (GTN), fréquemment utilisé dans le traitement de l’angine de poitrine. Au cours de ce travail, nous avons étudié les mécanismes moléculaires par lesquels le GTN sensibilise les cellules tumorales de plusieurs types de cancer (colique, mammaire, prostatique) à la mort impliquant des voies de signalisation régulées par des cytokines telles que le TNFα, l’IL-6 ou encore le GDF-15.Une meilleure compréhension des mécanismes sous-jacents à l’action anti-tumorale du GTN permettrait de potentialiser son utilisation comme nouvelle thérapie anti-cancéreuse.Modèle colique : le GTN, en présence de la cytokine pro-inflammatoire TNFα, sensibilise les cellules cancéreuses coliques et mammaires à l’apoptose. Du point de vue mécanistique, le GTN induit la S-nitrosylation de cIAP1, inhibant ainsi son activité ubiquitine E3 ligase. Ce qui abroge la voie de signalisation classique NF-кB de survie cellulaire activée par la voie TNFα/TNFR1 en faveur d’une voie de signalisation pro-apoptotique.Modèle mammaire : le GTN intervient au niveau de la migration cellulaire en altérant la voie de signalisation Jak2/STAT3 activée par la cytokine pro-inflammatoire IL-6, dans un modèle de cancer du sein triple négatif. En présence de dérivés du platine (carboplatine) générant de l’IL-6, le GTN freine la migration des cellules en induisant la S-nitrosylation, et probablement l’inactivation, de la kinase Jak-2, indispensable pour l’activation de la voie.Modèle prostatique : le GTN sensibilise à la mort les cellules cancéreuses prostatiques résistantes au docétaxel en modulant le taux de deux marqueurs de résistance à cette chimiothérapie : la clusterine (CLU) et le growth differentiation factor 15 (GDF-15). Au niveau moléculaire, le GTN diminue le taux de l'isoforme cytoprotectrice soluble de la CLU (sCLU) et augmente le taux de l'isoforme cytotoxique nucléaire (nCLU) dans les cellules prostatiques résistantes au docétaxel. Plus particulièrement, en présence de GTN, nous avons établi un lien entre le GDF-15 et la modulation du taux des isoformes de la CLU. / One of the main difficulties in the treatment of cancers is the acquisition of resistance by the tumor cells vis-à-vis the death induced by the different chemotherapies. In the laboratory, we are interested in the anti-tumor properties of a nitric oxide (NO) donor, Glyceryl TriNitrate (GTN), frequently used in the treatment of angina pectoris. In this work, we investigated the molecular mechanisms by which GTN sensitizes tumor cells of several types of cancer (colonic, mammary, prostate) to death involving signaling pathways regulated by cytokines such as TNFα, IL-6 or GDF-15.A better understanding of the mechanisms underlying the GTN's anti-tumor action would make it possible to use it as a new anti-cancer therapy.Colon model: GTN, in the presence of the pro-inflammatory cytokine TNFα, sensitizes colon and mammary cancer cells to apoptosis. From a mechanistic point of view, GTN induces S-nitrosylation of cIAP1, thus inhibiting its ubiquitin E3 ligase activity. This abrogates the classical NF-κB signaling pathway of TNFα / TNFR1 activated cell survival in favor of a pro-apoptotic signaling pathway.Mammary model: GTN intervenes at the level of cell migration by altering the Jak2 / STAT3 signaling pathway activated by the pro-inflammatory cytokine IL-6, in a model of triple negative breast cancer. In the presence of platinum (carboplatin) derivatives generating IL-6, GTN inhibits cell migration by inducing S-nitrosylation, and probably inactivation, of Jak-2 kinase, essential for the activation of the way.Prostate model: GTN sensitizes prostatic prostate cancer cells to death by modulating the level of two markers of resistance to this chemotherapy: clusterin (CLU) and growth differentiation factor 15 (GDF-15). At the molecular level, GTN decreases the level of the soluble cytoprotective isoform of CLU (sCLU) and increases the level of nuclear cytotoxic isoform (nCLU) in prostatic cells resistant to docetaxel. More particularly, in the presence of GTN, we have established a link between GDF-15 and the modulation of the isoform rate of the CLU. Cytokines pro-Inflammatoires Il-6 TNFa Gtn Clusterine Gdf-15 Pro-Inflammatory cytokines Il-6 TNFa Gtn Clusterin Gdf-15 571.9
20	Some Characteristics of Human Prostasomes and Their Relationship to Prostate Cancer Ronquist, Göran January 2009 (has links) Background: The secretory epithelial cells of the prostate gland use sophisticated vehicles named prostasomes to relay important information to sperm cells in semen. This prostasome-forming and secretory ability of the epithelial cells is also preserved in poorly differentiated prostate cancer cells. Aim: The aim of this thesis was to examine different characteristics of prostasomes, especially those derived from malignant prostate cells, linked to their potential role in diagnosis and prognostication of prostate cancer. Results: Serum samples of prostate cancer patients contained autoantibodies against seminal prostasomes in a higher concentration than did control sera. These autoantibodies were most frequently directed against 25 prostasome-associated proteins, but no one was prostate specific. Clusterin was one of the most frequently occurring prostasomal proteins. Elevated titers were however seen in both patients´ and control sera. Clusterin turned out to be a major antigen of seminal prostasomes. No prostate specific or prostate cancer specific protein was discovered upon proteomic analysis of prostasomes deriving from malignant cells of vertebral metastases of prostate cancer patients. Human chromosomal DNA was identified in both seminal prostasomes and PC-3 cell prostasomes and strong evidence existed that the DNA was localized inside the prostasomes. Four out of 13 DNA clones of seminal prostasomes featured gene sequences (31%). The corresponding figures for PC-3 cell prostasomes were 4 out of 16 clones (25%). Conclusions: Prostasomes are immunogenic and give rise to serum autoantibodies. The most frequently occurring autoantibodies were directed against 25 prostasomal proteins but none of these was exclusively prostate specific. Thirty different proteins were identified in prostate cancer metastasis-derived prostasomes but none of these proteins was prostate cancer specific. Human chromosomal DNA was identified in prostasomes of both normal and malignant cell origin. Prostasomes prostate prostate cancer clusterin antibodies metastasis exosomes PC-3 cells DNA vehicles gene therapy immunoblotting mass spectrometry agarose gel electrophoresis vertebral metastasis. Clinical chemistry Klinisk kemi

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